Gearing.



A.E.REU$S&:O.SCHNITZLBR.

. GEARING.

APPLICATION FILED MAY17,191L

Patented July 30, .1912.

. 5 SHEETSFSHIIET 1v zoo l Patented July 30, 1912 5 SHEETS-SHEET 2.

A. E. REUSS & 0. SCHNITZLER.

GEARING.

APPLICATION FILED MAY17,1911. 1,034,146.

WWN. Q I. @EQ a Q m 6 Izzy 8Q. a Y a g 5 g 3 g N 3 I o o :N i w, 3 WW g Q S mfia 2 SN a m w A. E. REUSS & O. SCHNITZLER.

GEARING. I APPLICATION FILED MAY 17,1911.

Patented July 30, 1912.

5 SHEETS-SHEET 3.

A. E. REUSS & 0. SGHNITZLER.

GBARING. v

'APPLIOATION FILED MAY 17. 1911. 1,034,146. Patented July 30, 1912.

5 SHBETSSHEET 5 I I H Maza7 Y Q 5 M M azarnrm E. BEUSS, oncmcmnarr, aunoscaa scnmrznna, or REMINGTON, omo.

Guanine.

jpecifleation bf Letters Patent.

Patented July 30, 1912.

mam... filed m 11, 1911. Serial was.

To all whom'it may concern; H v

Be it known that we, An'rnon E. Reuse and Oscar: Sonnrrznnn, citizens of, the

United States, residing, respectively, in Cincinna't i and at Remington, in the county of Hamilton and State of Ohio, have jointly ."invented certain new and useful Improve merits in Gearing, of which the following is I sion mechanism such as is employed for inrinvention relates to gearing, and has for-its object the revision of novel means whereby change relation in speed changiug mechanism may be automatically effected, further to provide means whereby speed 15 changingmechanism may be automatically acted on electrically in changing speed, further to provide means embracing a movable membe'r acted on by opposing lines of force and electric controlling means for speed transmission embracing a circuit or'circuits affected by said movable member, further to provide means embracing speed changing mechanism and clutch mechanism, one or both of which is'arranged to be automatically controlled by a moving member acted on by opposing lines of force, further to provide novel means whereby the relations in the speed changing means are changed, further to provide novel means whereby the changing movements are initiated automati- ,cally by electric controlling means, further 'to provide novel means for automatically affecting said electric controlling means, and further to provide novel means whereby said electric controlling means initiate movements for speed change and mechanically actuated means complete said movements.

I It is the object of our invention further, to provide a floating mechanism which is acted on by the opposing lines tofforce 1n power transmission for controll ng electric means whereby speed change is effected, further to provide floating mechanism acted on by opposing lines of force in power transmission and having auxiliary resistance means acting thereon, with-speed changing means in which change of speedis initiated by electric means automatically acted on by said floating mechanism, and further provide means whereby clutch mechanism is controlled in manners above stated.

Our invention is particularly applicable in such relations where conditions arise similar to those in the propulsion of automobiles or motor driven vehicles, in which varings resistances to propulsion owing to confditions or grades of road or other causes v are encountered, requiring various changes stance, in automobiles, although we do not limit ourselves to such application of our invention. 1

In the present exemplification of our invention, the line of resistance force is primarily employed for effecting change in re lation in the speed changing mechanism or in the clutch mechanism, or both, although we do not limit ourselves to this condition.

Our invention, employing two opposing lines of fierce acting on a moving member, and others of the features herein shown and described, are broadly claimed in a copending application filed by us May 1, 1911, Serial No. 624,294, to which reference is here made, and in Wh/ih another exemplification of our invention is shown, described and claimed.

' The invention will be further readily understood from the'following description and claims, and from the drawings, in which latter: I

Figure l is aside elevation of our improved device, vvi'th'the front of the casing removed. Fig. 2 is a plan view. of the same, with the top of the casing removed. Fig. 3 is an irregular section taken on the line z-'-z of Fig. 5, showing the parts in side elevation and partly in section. Fig. lis an enlarged plan view with the top of the casing removed'and part ofthe upper portions of the mechanism broken away for better illustration of parts. Fig. 5 is an enlarged detail of the mechanism with the casing almost entirely removed for better illustration of the assembled mechanism and with the parts partly broken away; and, Fig. 6 is a diagrammatic representation\ of the electrical connections.

21 represents a as aIvibrato-r-frame, interposed between the driving element; and the driven element, represented in the present cxemplification respectively by a driving shaft 22 and a driven shaft 23, shown as arranged end to end, the drivin shaft bein' shown as a hollow shaft. There is a train 0 transmitting mechanism between said shafts, part of which ismounted on said vibrator-frame, this tram of mechanism being represented as a tram of gearing comprising a pair of gears ii, 25

arranged end to end, and transmitting gears 26, 27 having axles 28 mounted in bearings 29 in the respective arms 30 of said vibratorframe, the said arms bein connected adjacent their outer ends by tle-bolts 31. The

vibrator-frame is shown as a pivoted frame whose axis of oscillation or swing is coincident with the axes of rotation of the gears 24, 25, and the said axes of rotation and axis of oscillation or swing may also be coincident with the axes of rotation of the drivpairs for lncreasing the transmitting powers of the mechanism.

The vibrator-frz'mie with the gears there on, in the exemplification shown, act as planetary members under the influence re- 2 spectively of the driving force imparted by the driving shaft and the reacting driven force of the driven element induced for instance by the tractivc resistance of the vehicle-wheels, the over-balancing of the forces causing the vibrator-franie to move in opposite directions. These movements may take place assisted by or count'eracted by the action of auxiliary resistance means, as a spring or springs, of which two sets are shown, one set being a pair of extensible springs 33 articulated to the vibrator-frame on one of said tie-bolts and held to stationary parts, as to lugs 34 of a casing 35, shown as an inclosing box. There may be a further spring 36, shown as. a com ression spring, which is active for preferab y but a part of the range of movement of the vibrator-frame. One end of the latter spring is shown received against a block 37 received about said tie-bolt, movement of the other end thereof being limited, as by a stationary part, shown as a bearing 38 in which a guide-rod 39 for the spring slides.

The driving element may be acted on by to suitable speed changing mechanism, in connection with which we have provided auiomatic means for changing the speed thereof. We have exemplified the speed changing mechanism as comprising a pair of shafts 56 with gears therehetwcen, although it is obvious that other characters of speed changing mechanism Illa) be employed. We have preferred however toillustrate the slidinggear and clutch form of speed changing 60 mechanism as convenient in illustrating our invention. Thus 46 is a power shaft driven by a suitable motor, as an internal combustion motorythe fly-wheel of which is shown at 47. A usual style of drive'clutch is op- 65 eratively interposed between the motor and the power-shaft, as for instance the welllmown tllsli friction clutch employed in automobiles, and indicated at 48. The powershaft shown journalcd in a bearing 4.9 in the casing and in the hollow drive-shaft, the latter being journaled in a bearing 50 in the casing. A hearing 1 is also shown in the casing in which the driven shaft jour naled.

5.; representsan intermediate shaft jour naled in bearings 56 in the main frame or casing and which may have thereon transmitting gears 57 :38 and 59, and a transmitting pinion 60 which meshes with a gear 61 on the drive-shaft, having thereon also one of the faces of a clutch 62, the other face whereof is on a sleeve 63 having splinec0nncction 64 with said powenshaft, the said sleeve being provided with gears 65 6G.

67 is a transmitting gear which meshes with the gear 59. It is mounted on a stud (i8 journaled in bearings (39 of the main frame.

Longitudinal movement. is in'iparted to the sleeve ($3 whereby the clutch (32 is engaged for imparting high speed to the driving element, or the gear 65 may be brought into mesh with the gear 57 for imparting intermediate speed to said driving element through the intermediate shaft, or the gears 06 and 58 may be brought into mesh for transmitting low speed to said driving element, or the gear 66 may be brought into mesh with the transmitting gear 67 for causing reversal of movement of the driving element through said transmitting gear and the gear 59. The numbers of speeds and the reversal'are instanced merely as examples and not as limitations of the scope of our invention. The movement ofthe sleeve 63 is preferably accom lishcd automatically, and we prefer to initlate the changes in the gearing by electrical means, instan-eing the same as elcctro-magnetic apparatus.

71 is a clutch-shaft to which a pair of clutch-sleeves 72 73 is secured. (lam-sleeves 74 75 are loose on the clutch-shaft, clutches 76 77 being located between said respective cam-sleeves and clutch-sleeves, the camsleeves being norn'ially urged toward the clutch-sleeves by springs 78 79. The clutchshaft is normally rotated, as by means of a Cl(( t-Clltlin 80 received about sprocketwheels 81 82 respectively on the power-shaft and the clutch-shaft and an idler sproeltetwheel 85 is a cam-shaft located in bearings 86 on the frame and has thereon cam-hubs 87 The cam-sleeve 74 has a pinion 91 thereon which meshes with a gear 92 on the camhub 87, for driving the latter, for instance, with a speed of three to one. The camsleeve 75 has a pinion 93 thereon which meshes with a gear 94 on the cam-hub 88,

for driving the latter with a similar speed.

lhe cam-hubs 87 88 are respectively rotated when the clutches 7 6 77 are respectively in engagement, the operation in the exemplification being such that, when the progression takes place from a lower to ahigher speed, one of said clutches operates, whereas suc cession from a higher to a lower speed is accompli .iod through the medium of the other of :aid clutches. The manner of engaging the clutches will be hereinafter described.

'96 is an arm pivoted and 98 is an arm pivoted at 99 to the frame. The cam-hub 87 is provided with a camgroove 10], with the walls of which an engaging part, shown as a roller 102 on the arm 90 adapted to make contact. The cam-hub 88 is provided with a camgroove 103, with the walls of which an engagingpart, shown as a roller 104, on the arm 98- is adapted to make engagement for opera'ting'said arm.

107 is a shaft fixed in bearings 108' of the frame and has on it a sleeve 109 which slides loii'gitudinally thereon, the sleeve being provided with a fork 110 provided with shoes 111 received in an annular groove 112 of the sleeve 63 for moving said sleeve longitudinal'ly. The longitudinal movement of the sleeve 109 is accomplished by the arms 9; 98, one of saidarms acting to move said sleeve in one direction and the other ofsaid arms acting to move said sleeve in the oppo s-ite direction. The longitudinally movable sleeve 109 is provided with a series of contact parts, shown as pins 115 116 117 and 118 on the clamp bearings 119 120 121 and 122, bymeans-of which the said pins are secured to the sleeve.

is a trigger pivoted to the arm 96 on mpivot124'adapted to engage the respective pins on the slidable sleeve for moving the sleeve in one direction. A keeper-face 125 on a keeper-bar 126' adapted to engage irpin 127 on the trigger in the return move I merit of said arm r retra ting said trigger 'I a lreeperdace l 'tetr-aetire n'mvcn cnt ot the arm tor retract- ,aiufl for normally holding mlltl trigger in retracted positi n when -aul arm is 111 normal. DUSllIlJH. The keeper-liar is secured to the Frame. as to a l ra lcet 130. A spring 128 is SUUl Hqw'l lJChYPPH the arm and a tailpiece 125) on said trig zn'r and normally urges said trigger into engaging position with said sleeve-pins.

The arm 95 is provided with a trigger 133 pivoted ther to on a pivot t ll, the trigger being arranged to make engagement with the pins on the longitudinally slidahle.pin sl t-w for impart In mov ment to said sleeve in the opposite dim-lion. the trigger being provided with a pin 137 adapted to engage 9,5 on the keeper-liar 126 on ing said trigger. The trigger is normally urged into engaging position with the sleeveat 97 to the frame, 9'

pins by a springiSS secured between the arm and a tail-piece 139 of the trigger.

The cam-sleeve 74 is provided with a camits major portion and has an offset portion 7 146, a pin 148 located on an arm Mitt-pivoted about a shaft 150 being adapted to be received in said groove, normally resting in the clutch 76 will come into engagement unof the cam-hub 87 for causing movement of the arm 96. During the initial partpf this movement the keeper-pin 127 on the 'tri ger will be released from the keeper 125 an the gitudinally movable sleeve 109 which is in ment moving said longitudinally movable pin-sleeve and the sleeve 63 through the range of a step of movement. The clutchpin 148 is reengag'ed with the cam-groove 145. In order to maintain disengagement between said pin and said camegroove, we provide the cam-hub 87 with a cam 151, which engages a roller 152 on a link 153 articulated at 154 with an arm 155 rigid with the arm 149, and having'a fork .156 straddling said cam-hub for causing roper o eration of the parts. a spring 157 normal y urging engagement between the roller 152 and the cam 151, the cam 151 being so con structed as to maintain the pin'l48 out of its cam-groove until the final portion of the revolution of the cam-sleeve 74, when reengagement is permitted between said pin and the cam-groove fonagain causing disengagement of-the clutch 76, thus giving additional time for the movement of the speed changing parts. In the meantime the arm 96 will have been retracted to its initial position by the operation of the cam 101. Similar mechanism is provided for causing movement of tho cam-hub 88 and for operating the arm 98, designated by similar reference numerals advanced'to the series 200.

In the drawings the parts are shown in the relations which they would assume when the speed is being changed from intermediate to high speed, with the high-speed clutch in engagement and the arm 96 about to be retracted. It is assumed that the powershaft rotates in the direction of-thearrow a. The power ap lying force normally tends to move the vi rator-fram'e in'the direction of the arrow 6, and theline'of resistance force tends to move the vibrator-frame in the direction of the arrow '0. The line of driving force is preferably amplified by Movement of the vibrator-frame is'prefcn ably limited in both directions' as by the groove 145 which is preferably annular for said diagonal portion for' causing release of the clutch 76. When the pin is retracted,

its range of movement, the arm in its move sleeve will continue its rotations until the the springs that act onthe vibrator-frame;

:der influene of the spring 78, and through the medlum of the gears 91 92 cause rotation .trigger will then engage the pin on the 1011- &

stops 1G1 162. If the line of driving force, amplified by the springs when employed, is greater than the line of resistance force, the vibrator-frame will move in the direction of the arrow 5, and if the line of resistance force is greater than the line of driving force, amplified by the springs when these are em ployod, the movementof the vibratort'rame or floating member will be in the direction of the arrow 0. The degree of pre ponderance of the respective forces will detcrminc the position of the floating member or vibrator-frame, and consequently the speed being transi'nitted.

It is advisable that when change in speed is being eflected that the drive-clutch shall be temporarily released, which we effect in novel manner. Thus the cam-hubs are pro vided respectively with cams 166 167 engaged by rollers 168 169 on arms 170 171 secured to a rock-shaft 172, from which an arm 1'73 extends, as through a slot 174 in the casing. This arm makes contact with an arm 1&5 secured to a. rock-shaft 1.76 to which a usual clutch-operating foot-treadle 177 may also be secured. The rocloshaft 1TH has a fork 178 rigid thereon for operating engagement of the clutch 76 andthe clutch -18. The casing may be suitably sup ported as by means of brackets 180 mounted on (Zl()SS-l)OillllS 181 which may be part of the chassis of? the motorvehiclc.

Tlnresistance of the auxiliary resisting device shown as the springs 3 increases as the arm recedes tion for inducing high preaches its position for speed. '0 accomplish this preferably by causing extension of the springs 33 during the first part of movement of the vibratorframe and amplify such resistance by the action of the spring 36 at the last part of said movement.

\Vo prefer to operate the arms 14.9 2-19 by electro-magnctic means for initiating the nu vcmcnt in the changing mechanism, For this purpose we prefer to provide rlcctro mz-igucts 185 1813, one of which acts for causing engagement of the clutch 76 and the other of which acts for causing engagement of the clutch 77, one of the said magnets preferably initiating increasing speed ratios and the other initiating decreasing speed ratios in said speed changing mechanism, and we have provided means by which these changes may be cfiected automatically de pend-int on the power applied or fuel supplied in proportion to the resistance encountered, as in the travel of the vehicle, it being understood that two lines of force, namely, power applying and power rc' ting lines of force, act upon the viln-ator-frame. Ye provide the vibratortrame with suitable contacts by which a circuit or circuits may be operativcly attected, preferably by (7105+ from its posispeed and up inducing low a 06 pro terably ing a, circuit or circuits through the magnets fo-r energizing the same and thereby initiating the operation 0. the speed changing device, and, in the present exemplification, also initiating the operatimi ot the clutch mechanism. Exemplitying these electric connections as applied to the range of changes of speed illustrated in the present. exemplification, we provide an electric con tact 190 with which an electric contact- 191 on the vibrator-trame is arranged to make contact, when it is desired to initiate the high speed transmission of the speed changing device. 192 is an electric contact with which an electric contact 193 on said Vibrator-frame is arranged to make contact when it is desired to change from high to intermediate speed, and 194 is an electric contact with which said contact- 193 on said Vibltlt01-fIH-1ll, is arranged to make ongagement when the change is made from intermediate to a low speed ratio of gearing. If a change is made from a low speed to an intermediate speed ratio of gearing, the electrio contact 191 is arranged to makes contaet with a contact 195, the said contact 191 in a further increasing ratio of speed. mak ing contact with the contact 190. In order to cause these contacts to be made in proper sequence, weprefer to maintain the contacts 190 192 194 and 195 on an arc-piece 196, preferably of insulation, supported on the casing between rods 197, between which there is secured also a segmental rack 198, the segmental rack engaging a pinion 199 on a bolt 200 passing through a bearing 291 on said vibrator-frame, a rociier-bar 202 being pivoted about said bolt, there being a friction-clutch 203 between said pinion and rocker-bar. A spring 204 received about said bolt between said rockenbar and a nut 205 normally urges engagement between the friction-faces of sail frictionclut-ch for nor mally urging swinging of said rocker-bar with said pinion but permitting the contacts 191 193 on said rocker-bar to ride upon said arc-picce. The contacts 191 193 are spaced apart a greater distance than the spaces between the contacts'190 and 195 and the contacts 192 and 1.94, so that the sequence of the contacts between the contacts of said rocker-bar and the contacts on said arcpiece will be the contacts 190 192 and 194 when said vila atoratrame moves in one di rection. and the contacts 194 195 and. 190. when said vibrator-frame moves in the opposite direction. In the cxemplitication shown there are three speeds and two changes made in the movement of the vi brator-t'rame throughout its complete range of movement in each direction. In the movement in onedirection the contact 193 on theyibrator-frame engages the contacts 192 and 19% on the a rcpiece and acts in conjunc ion with the electric magnet 186 for ment of the vibrator-frame the contact 191 thereon makes successive contact with the" contacts 195 and 190 on the arc-bplece for energizing the electric magnet 18 ,t

206 is a suitable source of electricity shown as a battery for energizing the magnets, in the 'conducto S of which a switch 207 is interposed, which may be manually operated for interrupting the circuits communicating with sa'id';electro-magnets, and

if so operated, the tripping mechanism is rendered inactive for maintaining the gearing at its attained speed ratio. In order to automatically interrupt the c 1rcu1t,or cir-' cuit'sr of said electro-magnets when a change in speed has been eflected by the'mechanism described, we provide a series of automati' cally operated switches 21-1, 212, 213, actuated by a trip 214 shown mounted on the lon itudinally movable sleeve 109. i

he automatic switches are so arranged that when a change in speed transmission has been effected, the circuit initiating such change will be interrupted and remain interrupted until a further change in speed has been effected, when the automatic switch for the speed from which change has just been made will be cl osed and the automatic switch for thespeed attained will be opened. The object for maintaining the automatic switch for the speed attained in open relation is to prevent rcpeatedvenergizing of the magnet affected. I switches preferably comprise the levers 221, -i 222 and 223 pivoted on pivots 224, 225 and 226 in a switch-box227 provided with slots 228 through which the ends'of the levers project into range of the trip 214.. The switches are normally held iii closed rela t-ions, the levers having thereon electro-conj ductivecontact-pins 230, 231 and 232 re-i ceived respeotively between contacts 233, 234 and 235, 236 and 2 37, 238, shown as leaf-spring contacts for {formin swit hes respective v for the higlg spec interme-T diate speed and low spec transmissions.

The electro-conductivepins are normally urged into contactbetween the spring-contacts. This is'accomplished in the case of the pin 230 by a spring 239 for urging the lever 221 against a stop\240. In the case contact vwith the contacts 235 trip 214, the lever 222 is held of the pin 23 for the intermediate apes g" transmission, which in practice is arrang to be moved to either side of its position of 236 by the in intermedmt 'osition means of springs 241 24 2.- 'n' the case of the pin 232 which is' also arranged tov be moved to both sides of its springcontacts', when changing either from intermediate to low speedor from low speed to reverse direction of transmission, tl1e=lfever 223 is held in intermediate These automatic i position by springs 243 244.

An electric conductor 261 connects the battery \206 with .all Ff the automatic switches 211, 212 and 213. An electric conduct-or 262 with a branch 263 connects the battery with the electro-magnets 185 and 186. l he switch 207 is placed in the conductors 261, 262. An electric conduct-or 264 connects the terminal 191 with the electro-magnet 185 and an electric conductor 265 connects the terminal 193 with the electro-magnet 186. An electric conductor 266 connects the switch 211 with the terminal 190. An electric conductor 267 and abranch 268 connect the switch 212 with the terminals 192, 195, An electric conductor 269 connects the switch 213 with the terminal 194;.

Tlte automatic switches are affected for changing the speeds. If it is desired to effect reversals of movement, this 'may, in the present exemplification, be accomplished by causin .the operation to be initiated through-t e manually controlled switches,

which preferably short circuit the auto matic switches which latter may,.if desired, be rendered inactive by opening the switch 207. Thus an electric conductor 271 connects the portions of the electric conductor 262 at the re pect-ive sidw of the switch 207. An electric onductor27 2 connects the electric conductor 261 with the magnet 186 r 11 v A a point in advance of'tli'e switch 207.

switch 273 is in the electric conductors 1, 1

272. An electricconductor 274 connects the portions of the conductor 2.62 at the respective sides of both of the switches 207 and 273. An electric'conductor 275 connects the electric conductor 261 with the electro-magnet 185 from a point in advance .of theswitch connections for the switches 207, 273. A switch 276 is in the electric ieon'ductors 274, 275.

The movements for change of speed from high to intermediate and low. speeds and reversal of movement and for changing ,again to direct movement and low, intermedigte and high"s'peeds,' take place in sequential order, the movement for change of direction taking place either from or to low speed relations of parts.

erably automatically operated for releasin the drive clutch, there being however su cient inertia in the of smaed. As stated, the changes in s eed are preferably effected automatically, w ,reas the reversals of movement are preferably controlled by the manually operated switches, the switch 273 controlling the magnet 186 for causing change of movement from [low s' eed to reversal of movement, ind the switch 276 controlling the ma et 85 for changing back from reverse rive to direct drive at low speed.

Theswitches 207, 273 and 276 may been In each of these changes the clutch mechanism is prefparts toefiectthe change Ice the dashboard and the battery at a suitable place on the vehicle, the conductors connecting the same with the mechanism inside the casing being suitably disposed and led into the casing to the electric mechanism therein.

The relations of arts in the speed changing mechanism un er a given power application,a're controlled by the resistances encountered, owing for instance to road con ditions or grades of road, and change of-relation in the speed changing mechanism is also controlled by the amount of power supplied and may be effected by the mere change of supply of fuel to the motor as fully explained in our aforesaid copending application.

Having thus fully described our invention, what we claim as new, and desire to secure by Letters Patent, is:

1. In speed changing mechanism, the combination of a train of gearing comprising a floating gear-supporting member sup-, porting gearing of said train, and electric controlling means automatically acted on by said floating gear-supporting member for controlling the speed of transmission.

2. In speed changing mechanism, the combination of a train of gearing comprising a floating gear-supporting member supporting gearing of said train, a clutch mechanism, and electric controlling means automatically acted on by said floating gear-supporting,

member for affecting transmission by said clutch mechanism.

3. In speed changing mechanism, the combination of a train of gearing comprising a floating gear-supporting member supporting gearing of said train, a clutch mechanism, and electric controlling means automatically acted on by said floating gear-supporting member for controlling the speed of trans mission and affecting the power transmission through said clutch mechanism.

4. In speed changing mechanism. the combination of a train of gearing comprising a floating gearsupporting member supporting gearing of said train, said floating gearsupporting memt er acted on by opposed lines of force. power-transmitting elements,

means for eflecting change of relation in,

said power-transmitting elements, and electric controlling means cooperating with a portion of said 'last-namedm'eans and em bracing an electric circuit or circuits controlled by said floating member.

5. In speed changing mechanism, the combinatidn of a floating member acted on by opposed lines of force, power-transmitting elements, means for effecting change of relation in said power-transmitting elements, electric controlling means cotiperatingwith a'portion of said last-named means and embracing an electric circuitor circuits controlled by said floating member, and. m ans affecting said circuit or circuits acted on by an element affected in said cha'nge of relation.

(5. In speed changing mechanism, the combination of a. floating member acted on by opposed lines of force, speed-change elements, means for moving an element of the latter for effecting change-of relation therein, and electric controlling means for the latter embracing interrupting means controlled by said floating member, and'interrupting means cont rolled by an element concerned in moving said element of said speed-change elements.

"'7. In speed changing mechanism, the combination of a floating member acted on by opposed lines of 'force, speed-change elements, means for moving an element of the latter for effecting change of relation therein, and electric controlling means for the latter embracing interrupting means controlled by said floating member, and interrupting means controlled by an element concerncd in moving said element of said speedchange elements, said two named interrupting means actin in opposition for making and breaking sai circuits.

8. In speed changing mechanism, the combination of aifloating member acted on by elements, means for effecting change of re] opposed lines of force, power-transmittin tion in said power-transmitting elem'ent, electric controlling means for the latter embracing a plurality of interrupted circuits arranged for being closed by said floating member, and interrupting means for Said circuits respectively acted on by an element affected in said change of relation.

9. In speed changing mechanism, the combinationipf a floating member acted on by opposed" lines of force. speed-change and reversing elements, means for operatively effecting change of relation in said elements, and electric controlling means for the latter embracing automatically acting controlling means actuated by said floating: member throughout the range of change of relation in said spced-change elements, and optional controlling means for said means operatively effecting change of relation in said reversing elements.

10. The combination of a vibrator-member acted on by oppose lines of force for vibrating the same, geafs therefor employed in transmitting power; speed-change elements. means for operating the same, and electric initiating means for the latter having operative connection with said vibratormember.

11. The combination of a vibrator-member acted on by opposed lines of force for vibrating the same, gears therefor employed in transmitting power, speed-change members. means for operating the same. and electric initiating means for the latter having operative connection with said vibratormember, said electric initiating means embracing interrupt-ing means actuated by said operating means.

12. In power transmittin mechanism,the combination of a driving e ement, a driven element, a vibrator-frame acted on by opposed lines of force operatively disposed between 'said elements, a train of gearing operatively disposed between said elements part of which is located on said vibratorframe, speed-change members, and operative controlling mechanism for said speedchange members, movement wherein is initiated from said vibrator frame.

13. The combination of a vibrator-member, gears therefor employed in transmitting power, speed-change members,- means for operating the same, and electric initiating means for the latter having operative connection with said vibrator-member, said electric initiating means embracing interrupting means actuated by said operating means, said interrupting means being normally in closed relation.

14. The combination of speed-change parts, a power transmitting clutch, a moving member acted on by opposed lines of force for moving the same,means for changing the speed relation-in said speed-change parts, means for operating said clutch, and electric initiating means or said two lastnamed means comprising an electric circuit controlled by said moving member.

15. The combination of speed-change parts, a power transmitting clutch, a moving member acted on by opposed lines of force for moving the same, means for changing the speed relation in said speed-change parts in increasing and decreasing speed ratios, means for operating said clutch,electric initiating means for said two lastnamed means comprising a plurality of electric circuits initiating movement in said speed-change parts in opposite directions.

16. In speed changing mechanism, the combination of a train of gearing comprising a floating gear-supporting member supporting gearing of said train, said floating gear-supporting member acted on-by opposed line's of force, resistance means for said floating gear-supporting member auxiliary to a line of said force, and electric controlling means acted on by said floating gear-supporting member.

17. In speed changing mechanism, the combination of a train of gearing comprising 'a floating gear-supporting member supporting gearing of said train, speedchange elements, said floating gear-supporting member acted on by opposed. lines of force, resistance means for said floating gear-supporting member auxiliary to a line of said force, means having connection with a part of said speed-change elements for changing the relation therein, and controlling means for the latter acted on by Salk floatin gem-supporting member.

18. 11 speed changing mechanism, thicombination of a train of gearing comprising a floating gear-supporting member sup porting gearing of said train, speed-change elements, a power-transmitting clutch, said floating gear-supporting member acted on by opposed lines of force, resistance in ans; for said floating gearsnpporting men her auxiliary to a line of said force, megns having connection with a part of said speed change elements and said clutch, and controlling means for the latter acted on by said floating ear-supporting member.

19. In speed change mechanism, thee-0m bination of a train of gearing comprising a floating gear-supporting member support ing gearing of said train, said floating gearsupporting member acted on by opposed lines of force, speed-change parts, parts concerned in reversal of movement, means for actuating a portion of said parts for effect ing change in relation therein, and control-- ling means for the latter acted on by said floatinggear-supporting member.

20. In speed changing mechanism, the combination of a floating member through which the power is transmitted and upon which the OPPOSIL; lines of force of said power transmission act, speed-change parts, means for causing change of relation there in, and electric controlling means for the latter controlled by said floating member.

21. In speed changing mechanism, the combination of a floating member through which the power is transmitted and upon which the opposing lines of force of said power transmission act, speed-change parts, means for causing change in relation therein, electric controlling means for the latter controlled by said floating member, and

auxiliary resistance means for said floating member.

22. In speed changing mechanism, the combination of a floating member through which the po ver is transmitted and'upon which the opposing lines of force of said power transmission act, speedchange parts, means for causing change in relation there in, electric controlling means for the latter controlled by said floating member, and a plurality of auxiliary resistance means for said floating member, part of which act on said floating member during a portion of its movement and all of which act thereon during the balance of its movement.

23. In speed changing mechanism. the combination of speed-change means for moving a member thereof a plurality of steps for causing change in rel c tion thereof, an interruptedelectric circuit for each of said steps. means for closing each i of said circuits, and meansactuatcd by said meml ma moving member for breaking said respective closed circuits and. ma ntain ng the sam in interrupted relation \tiarirg maintmmnce of said lii:-;t-ii.it'i(ti means in rlwing pr! iiion.

24. In speed chang" inert coml'iination ml speed-i Hging' numbers, .mealjls for movinn a'n'r-lnher thereof (or causing change in relation thereof, initials ing means for the latter Embracing a revolving cam and tripping means therefor, and means for maii'itaining said tripping means out of range of said cam throughout, more than a complete revolution of said cam.

In speed changing mechanism, the combination of a power clennEnt, a driving element and a driven element, speed-change parts between said power element and litl driving element, a floating member between said driving and driven elements controlled by the opposed lines of force therefrom,

lllttiilr for o'ioving a member of said. speed change p:- ,i-ts, f or etlecting speed-change the-rent compmsnig ram-mechanism having operati e relation With said movable member and (li ttjll ll'itillitilllbin having operative retailer-i with one of said first-named elein, and means antomatically operating sa d otntch having operative relation with said floating member for operating the same.

26.111 speed changing mechanism, the combination of speedwhangc parts fol transmitting a plurality of speeds, means for causing rhangtgin relation of said parts respectively in increasing or decreasing speed changing ratios com 'n'ising moving means and a plurality of cam-mechanisms for ar'znating' said l:1-;i3);l]l!t(l means respectivcl in opposrie (lira-Hons. and means in initiating movement in said respcctiie rammechanisms.

27. in speed r, mechani m. the combination of hange members,

i no mmanrnt therein f r ceasing spew? t onmrising a mow olilc n nnber, an arm and ii 'cr mechanism in speed changing mechanism, the combination of SlHK'il-"lltfltflfi members, means ellucting'operntive movement therein in opposite directions m causing speed cha ge comprising a ninval le member, a plurality of arms moval'ilo in opposite directions and trigger mechanisms between said arms and movable member.

'29. in speed changing mechanism, the combination of speed-clmnge members, means cti ccting operative inm'en'ient therein {or causing sprctl change comprising a movable member, an arm, trigger mechanism :a-twccn sriil arm and movable member, and releasing mechanism for said trigger mechanism operat'ic upon retraction of said arm.

30.112 spe'ed changing mechanism, the combination of speed-change members,

the i .anii med cam throughout more urging the ti it said trigger mains into operative it a, and means For rctracting said i.1i,{, s npon retraction of said arms.

31. In speed changing mechanism, the combination of speed-change members, means for moving a member thereof for causing change in relation thereof tannprising a longitudinally moving member, a pai'r of oppositely movable arms for moving said moiable member in opposite directions, trigger mechanism between each of said arms and said longitudinally movable member, and means for retracting the triggers of said trigger mechanisms out of operative range of said longitndinazly movable member upon retraction ct sa id respective arms.

232.11: speed changing mechanism, the combination of speedchange members, means for movinga member thereof for causing change in relation thereof comprising a movable member, a pair of arms movable in opposite directions for shifting said movable member in opposite directions, rain-mochanlsm for each of said arms for operating the same, and means for automatically operating said cam-mechanism.

33. in speed changing mechanism, the combination of spemh'change members, means for moving a member thereof for causing change in relation thereof comprising canrmeehanisni and initiating means for the latter Oll'llfl'tlClllg a clutch, a camdevice, electrically operated meolmnism for cansing engagement between said clutch and cam-device, and operative connecting means between said cam-device and cam mecha nism, substantially as described.

34. In speed changing mechanism, the combination of speed-change members enlbracing a movable member for causing change in relation thereof, operating means for the latter embracing a can], a trippercan], and an electrically operated trip there for,

3:3. in speed changing mechanism, the combination of speed-change members embracing a movable member for causing change in relation thereof, operating means for the latter embracing acam, a trippercam, an electrically operated trip therefor, means for rotating said second-named cam at greater speed than said first-named cam, and means having connection with said second-named cam for maintaining said trip out of operative relation with said secthan a comptete revolution thereof.

B6. In speed changing mechanism, the combination of speed-change and reverse a movable m mber lol" said rams eompri ing a ram and releasing m ans lheret r and aut matieallv aetuztted mean for etlietin sa d relea e.

to. In p -rd ehanein; nt-whanism, the

; eombinatioa of peed-rhanee members eonr thereof in reverse direetions, rains for opmating the latter, eluteh-rtieiuhers rams tha'et'or. means tor releasing r-titl last named cams t'or raining engagement with said (lllltlt-dllllllltlfi and thereb v operating i said tirst-named eams. and means for per muting a revolution of Hlli l tirstaiamed eaina fora plurality of revolutions for said ser-aal-named rams.

37. in speed changing meehanism. the eombination of speed-ehange members comprising a movable member for ransiiag ehange in relation thereof, a cam for moving the same, an initiatingeam, tripper means therefor, means for maintaining said tripper means in disengaged relation, eonr pri ing a third eam fast with said first.-

.named cam, said tirst-na1ned and seeondnamed rams havin; operative connertion for rotating said aeeond-named cam a plurality of times for eaeli revolution of said firstnamed cam.

38. in speed changing meehanism, the combination of speed-ehange members eomprising a movable member for causing ehange in relation thereof, a eam t'or moving the same, an initiating cam, tripper means therefor, means for maintaininr said tripper means in disengaged relation eomprising a third cam fast with said tirstnained cam, said first-named and seeondnamed cams having; operative connection for rotating said seeondmamed cam a plurality of times for eaeh revolution of said iit5t-l1iltll(t(l cam, a main drive elnteh, and a ram fast with said first-named ram for releasing said main drive eluteh.

W. in speed rhan g'ing' meelianism, the combination ot' speed-eliange members eoim prising a movable member for eausino' change in relation thereof, a. pair of arms for moving said movable member in opposite directions a eam tor moving eaeh of said arms, and initiating m ans for (:ttll of operative \vith eaeh of said prising a movable member f r eausing ehang'e in relation thereof, a pair of arms for moving ititl movable member in op posite dirertions. a ram for eaeh of said ill'ilh for m ving tbe ame. and initiating means for ezH'li of said rams eomprising a ram and relea ing lltt'illln therefor and automatieally aetuated means f r etl'eeting said release, a main drive eluteh, and a rain il1 ilt1llii((l rams for releasing said main drive elnteh.

41.111 speed (hanging mechanism, the eombination of a driving element and a driven element. speedwhange means for moving a member thereot' embraeing eam-meehani m having operative relation with said movable member and eluteli-mechanism for said eamaneehanism havin; operative relation with one oi. said liIet-llttliltd elements, and means for automatieally operating said elnteh.

42. In powertransmitta'igmechanism, the rombination of a driving element. a dri\en element, a vilnator-fraine operatively disposed bettveen said elements, a train of gearmg operatively disposed between said elements part of \vhieli is loeated on said vibra tor-l'iuune, speed-ehanging nna-hanism, and perative control for v aid speedehaim'ing meehanism, movement \vherein is initiated from said vibrat wframe, said operative eontrol' embraeing leetro-magneis and eontaets therefor, the making and breaking \vliereot' is eontrolled by said vibrator frame.

in testimony whereof, we have signed our names hereto in the pre ent-e olf two subseribing witnesses.

members,

tit) 

